Structural and Electronic Effect Driven Distortions in Visible Light Absorbing Polar Materials ATa2V2O11 (A = Sr, Pb)

Babaryk, Artem A.; Odynets, Ievgen V.; Lobato, Álvaro; Adawy, Alaa; Recio, J. M.; García-Granda, Santiago

doi:10.1021/acs.jpcc.2c00469

J. Phys. Chem. C

2022

DOI: 10.1021/acs.jpcc.2c00469

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Structural and Electronic Effect Driven Distortions in Visible Light Absorbing Polar Materials ATa₂V₂O₁₁ (A = Sr, Pb)

Artem A. Babaryk

Ievgen V. Odynets

Álvaro Lobato

et al.

Abstract: Complex vanadates of tantalum(V), such as A Ta 2 V 2 O 11 (A = Sr, Pb), are rare and underrated materials, which have potential application domains that could be substantially expanded, mitigating the existing controversy on their atomic and electronic organization. Herein, we present a thorough structural examination combining synchrotron powder X-ray diffraction-aided distortion mode analysis with computational method… Show more

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Pb₂TeV₂O₁₀: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

Ding,

Zhu,

Wang

et al. 2024

Inorg. Chem.

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Birefringent materials as the key materials in laser science and technology have attracted continuous attention due to their ability to modulate polarized light. Herein, a new lead vanadate tellurate, Pb 2 TeV 2 O 10 , has been synthesized through the rational integration of different kinds of birefringence-active functional units. Pb 2 TeV 2 O 10 features a unique two-dimensional (2D) [TeV 2 O 10 ] ∞ layered structure consisting of [VO 6 ] 7− and [TeO 6 ] 6− octahedra, and Pb 2+ cations reside between the [TeV 2 O 10 ] ∞ layers. In addition, the rare edge-sharing mode of [VO 6 ] 7− and [TeO 6 ] 6− octahedra was found in this structure. Attributed to the high polarizability and appropriate arrangement of PbO 8 , VO 6 , and TeO 6 units, Pb 2 TeV 2 O 10 possesses a great theoretical birefringence of 0.275 at 532 nm, which is the largest among the vanadate tellurate family. The spectral tests also prove that Pb 2 TeV 2 O 10 showcases a broad transparency window (439 nm−10 μm), covering an important mid-infrared (IR) atmospheric window (3−5 μm). In addition, in order to improve the transparency, alkali and alkaline earth metal cations were introduced by the substitution strategy, and then the compound K 2 Sr 2 Te 2 O 9 was synthesized. It owns a shorter ultraviolet (UV) cutoff edge of 234 nm and a wider transparency window (234 nm− 13.8 μm). The findings of Pb 2 TeV 2 O 10 and K 2 Sr 2 Te 2 O 9 enrich the structure chemistry of the tellurate family and provide new insights for designing new compounds with large optical anisotropy and wide spectral transparency.

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Pb₂TeV₂O₁₀: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

Ding,

Zhu,

Wang

et al. 2024

Inorg. Chem.

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show abstract

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Structural and Electronic Effect Driven Distortions in Visible Light Absorbing Polar Materials ATa₂V₂O₁₁ (A = Sr, Pb)

Cited by 1 publication

References 42 publications

Pb₂TeV₂O₁₀: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

Pb₂TeV₂O₁₀: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

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Structural and Electronic Effect Driven Distortions in Visible Light Absorbing Polar Materials ATa2V2O11 (A = Sr, Pb)

Cited by 1 publication

References 42 publications

Pb2TeV2O10: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

Pb2TeV2O10: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

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Product

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Structural and Electronic Effect Driven Distortions in Visible Light Absorbing Polar Materials ATa₂V₂O₁₁ (A = Sr, Pb)

Pb₂TeV₂O₁₀: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups

Pb₂TeV₂O₁₀: A Lead Vanadate Tellurate with Wide Mid-IR Transparency and Large Birefringence Induced by Multiple Birefringence-Active Groups